Rapid Curing Cutback Bitumen

What is Rapid Curing Cutback Bitumen?

Rapid Curing type of cutback bitumen has the property of hardening relatively quickly after it is applied to a surface. The solvent in the cutback bitumen evaporates rapidly, leaving behind a solid bituminous layer within a short time frame. The grades used for rapid curing cutback bitumen are RC-70, RC-250, RC-800, and RC-3000. 

Rapid curing cutback is a type of bituminous material used in construction and road applications. It is created by diluting regular bitumen (asphalt) with a volatile solvent, such as kerosene or naphtha, to reduce its viscosity. This reduction in viscosity makes the bitumen easier to handle and apply, especially at lower temperatures.

This type of cutback bitumen is typically used for surface treatments, tack coats, prime coats, and other applications where quick curing is required. It is applied using standard asphalt equipment, such as sprayers or distributors, and can be used in both warm and cold weather conditions.

As with other cutback bitumen products, it is important to follow proper safety precautions when handling and applying rapid-curing cutback bitumen. The volatile solvents used in the mixture can be flammable and pose health risks if not handled correctly. Adhering to safety guidelines and regulations is crucial to ensure the safe and effective use of rapid-curing cutback bitumen in road construction projects.

Application of Rapid Curing Cutback Bitumen

Rapid curing is a type of bituminous material used in construction and road applications. It is created by diluting regular bitumen (asphalt) with a volatile solvent, such as kerosene or naphtha, to reduce its viscosity. This reduction in viscosity makes the bitumen easier to handle and apply, especially at lower temperatures.

Packing of Rapid Curing Cutback Bitumen

Rapid Curing Cutback Bitumen is typically packaged and supplied in steel drums or bulk tanker trucks. The packaging may vary depending on the manufacturer and the specific requirements of the project. Here are some common packaging options for rapid-curing cutback bitumen:

1. Steel Drums: Rapid-curing cutback bitumen is often packaged in standard steel drums with a capacity ranging from 150 to 200 liters. The drums are sealed to prevent leakage and contamination during transportation and storage. They are easy to handle and can be stacked for storage.
2. Bulk Tanker Trucks: For larger quantities of rapid-curing cutback bitumen, it can be delivered in bulk tanker trucks with capacities ranging from several thousand liters to tens of thousands of liters. The bitumen is pumped directly from the tanker into storage tanks or application equipment at the job site.
3. Intermediate Bulk Containers (IBCs): Some manufacturers may also offer rapid-curing cutback bitumen in intermediate bulk containers (IBCs) with capacities ranging from 500 to 1,000 liters. IBCs are a convenient option for medium-sized projects that require a moderate amount of bitumen.
4. Custom Packaging: In some cases, rapid-curing cutback bitumen may be available in custom packaging options to meet specific project requirements. This could include specialized containers or packaging configurations tailored to the needs of the customer.

When handling and storing Rapid Curing Cutback Bitumen, it is important to follow proper safety precautions to prevent spills, leaks, and exposure to harmful fumes. Ensure that the packaging is intact and properly sealed before use, and store the bitumen in a well-ventilated, cool, and dry area away from sources of ignition. Follow the manufacturer’s guidelines for handling, storage, and disposal to ensure the safe and effective use of rapid-curing cutback bitumen

General Specifications for Rapid Curing Cutback Bitumen:

1. Viscosity:

• Penetration at 25°C: RC Cutback is typically classified based on its penetration grade. For RC 70, for instance, the penetration may range from 40 to 70 dmm (decimillimeters), depending on the type of cutback.
• Viscosity (at 60°C): This can range from 200 to 1000 cP (centipoise), depending on the specific grade and formulation of the RC cutback.

2. Solvent Content:

• Solvent Type: The solvent used is generally kerosene, which evaporates quickly, allowing the bitumen to cure faster.
• Solvent Content: Around 25% to 40% of the total mixture, depending on the grade of cutback (e.g., RC 70, RC 250, RC 800).

3. Flash Point:

• The flash point is typically higher than 40°C to ensure safe handling during transportation and application. A common flash point for RC cutback is around 40°C to 60°C.

4. Curing Time:

• RC Cutback is designed to cure quickly once applied to a surface, which allows for faster construction timelines.
• Curing times will vary based on the thickness of the application, temperature, and atmospheric conditions, but generally, it cures within 24 to 48 hours.

5. Solubility:

• RC cutback should be completely soluble in the solvent, and the mixture should not separate during storage.

6. Penetration After Curing:

• After curing, the penetration value should fall within an acceptable range to meet performance standards. Typically, this value should be around 40-70 dmm after curing, depending on the grade.

7. Storage Stability:

• RC Cutback must have good storage stability, meaning the bitumen and solvent should not separate over time. Typically, this stability should last at least 6 months under standard storage conditions.

8. Chemical Composition:

• RC Cutback contains bitumen, petroleum distillates (solvents), and trace chemicals. The precise chemical makeup will depend on the specific formulation and the manufacturer.

9. Grade Designation:

• RC 70: A commonly used grade for quick-setting applications with a relatively low viscosity.
• RC 250: Higher viscosity, typically used in colder climates or for heavier applications.
• RC 800: Even higher viscosity and slower curing properties, used for very heavy-duty applications.

10. Performance Requirements:

• Adhesion: RC Cutback should exhibit excellent adhesion to aggregates, ensuring proper bonding during paving.
• Water Resistance: Once cured, it should be resistant to water and weathering, ensuring longevity and durability of paved surfaces.